CN116550081B

CN116550081B - Multifunctional waste gas purification environment-friendly equipment and application method thereof

Info

Publication number: CN116550081B
Application number: CN202310405087.XA
Authority: CN
Inventors: 苏永刚
Original assignee: Anhui Yiguang Laboratory Equipment Manufacturing Co ltd
Current assignee: Anhui Yiguang Laboratory Equipment Manufacturing Co ltd
Priority date: 2023-04-17
Filing date: 2023-04-17
Publication date: 2025-09-16
Anticipated expiration: 2043-04-17
Also published as: CN116550081A

Abstract

The present invention discloses a multifunctional waste gas purification and environmental protection device and a method of using the same, which relates to the field of waste gas purification technology. The device comprises a hollow cylinder, a dust collecting hopper is inserted in the middle of the bottom surface of the hollow cylinder, a dust collecting cylinder is provided on the left side of the hollow cylinder, the right end of the dust collecting cylinder is connected to the left end of the dust collecting hopper, a purification cylinder is provided on the right side of the hollow cylinder, and a purification component is provided in the purification cylinder; an arc-shaped brush plate is provided on the bottom wall of the dust collecting cylinder, a U-shaped cover is fixed on the left bottom wall of the hollow cylinder, a servo motor is installed in the left end of the U-shaped cover, a fixed shaft is provided at the end of the motor shaft of the servo motor, the left end of the fixed shaft is connected to the arc-shaped brush plate through a reciprocating mechanism, and the right end of the fixed shaft is connected to the purification cylinder through a limiting mechanism. The present invention can not only enhance the dust removal effect of the waste gas, but also effectively prolong the contact time between the waste gas and the atomized liquid, thereby improving the practicality of the waste gas purification and environmental protection device.

Description

Multifunctional waste gas purification environment-friendly equipment and application method thereof

Technical Field

The invention relates to the technical field of waste gas purification, in particular to multifunctional waste gas purification environment-friendly equipment and a use method thereof.

Background

The Chinese patent discloses a multifunctional waste gas purifying and recycling device (publication number: CN 109260888B), which can be used for blowing waste gas to be treated into a purifying device through a blowing device, removing most dust particles through a dust removing device, cooling and collecting grease in the waste gas by the upper purifying device, enabling the discharged gas to enter a water tank through an air pipe, enabling acidic substances in the gas to react with water to generate a salt solution, collecting the salt solution and performing the functions of extracting and processing later chemical materials, wherein a support frame A is arranged on a support mounting base, a support frame B is arranged on the support mounting base, a lifting device is arranged on the support frame B, a power device is arranged on the lifting device, the waste gas purifying device is arranged on the lifting device, a transmission triangular belt is arranged on the power device, the transmission triangular belt is arranged on the waste gas purifying device, the air pipe is arranged in the water tank, and the waste gas blowing device is arranged on the support mounting base.

The prior waste gas purification has the following defects that 1, a great amount of dust and impurities are contained in waste gas, dust removal operation is needed before the waste gas is purified, dust removal holes are easy to be blocked due to more dust and impurities, and normal operation of the dust removal operation is influenced, 2, atomization spraying is needed before the waste gas is purified, toxic gas is removed, the contact time between the waste gas and an atomized liquid is short, atomization is insufficient, and harmful gas still overflows.

Disclosure of Invention

The invention aims to solve the defects of poor dust removal and atomization effects of waste gas in the prior art, and provides multifunctional waste gas purifying environment-friendly equipment and a using method thereof.

In order to solve the problem of poor dust removal and atomization effects of waste gas in the prior art, the invention adopts the following technical scheme:

The multifunctional waste gas purifying and environment-friendly equipment comprises a hollow cylinder, wherein the hollow cylinder is a hollow cylinder with a conical opening at the left end part and a circular opening at the right end part, a rectangular through hole is formed in the middle of the bottom surface of the hollow cylinder, a vertically fixedly connected dust hopper is inserted into the rectangular through hole, the top of the left side wall of the dust hopper is in a circular opening shape, the bottom of the dust hopper is in a rectangular opening shape, a pair of first clamping rings which are fixedly connected concentrically are arranged on the left side in the hollow cylinder, a dust removing cylinder which is connected in a rotating manner is clamped between the pair of first clamping rings, the right port of the dust removing cylinder is connected with the left port of the dust hopper in a penetrating manner, a second clamping ring which is fixedly connected in a concentric manner is arranged on the right side in the hollow cylinder, a purifying cylinder which is connected in a sliding manner is inserted into the second clamping ring, and a purifying component is arranged in the purifying cylinder;

The utility model discloses a dust collection device, including hollow section of thick bamboo, hollow section of thick bamboo inner bottom wall right side is sunken to have the dirt collection groove, the dirt collection groove is located under the left section of thick bamboo part of purifying, the inner bottom wall of dust removal section of thick bamboo is equipped with the arc brush board of transversely placing, left side diapire has set firmly U type cover in the hollow section of thick bamboo, install the servo motor of output towards right in the left port of U type cover, servo motor's motor shaft tip is equipped with coaxial hookup's fixed axle, the right-hand member portion of fixed axle rotates in proper order and runs through a pair of snap ring, dust hopper and extends to the right side of dust hopper, the left end portion of fixed axle is connected with the arc brush board through reciprocating mechanism, the right-hand member of fixed axle is connected with purifying the section of thick bamboo through stop gear.

Preferably, the purification assembly comprises an activated carbon adsorption filler, a microorganism adsorption filler and a demisting purification filler, the purification barrel is a hollow barrel with an open right end part, a pair of hollow separation discs which are detachably connected are arranged in the purification barrel, a purification cover disc which is detachably connected is arranged in a right port of the purification barrel, three circular cavities are sequentially formed in the purification barrel, and the activated carbon adsorption filler, the microorganism adsorption filler and the demisting purification filler are sequentially arranged in the circular cavities.

Preferably, the right side of the purifying cylinder is sleeved with a sliding connection annular channel steel, the right side of the top wall of the hollow cylinder is provided with an exhaust pipe vertically penetrating and fixedly connected, the bottom end part of the exhaust pipe is in penetrating connection with the top wall of the annular channel steel, and a fixed cover disc in detachable connection is arranged in the right port of the hollow cylinder;

the dust collecting device is characterized in that a rectangular sliding hole is formed in the bottom of the back of the dust collecting bucket, a sliding baffle plate in sliding connection is inserted into the rectangular sliding hole, a drain pipe is arranged on the right side wall of the dirt collecting groove, and a drain valve is arranged at the outer end of the drain pipe.

Preferably, a first gear ring which is concentrically fixedly connected is sleeved on the left side of the outer ring surface of the dust removal cylinder, a driving gear which is concentrically fixedly connected is sleeved on the fixed shaft, the driving gear is positioned below the first gear ring, and the driving gear is in meshed connection with the first gear ring.

Preferably, a plurality of uniformly arranged dust removing holes are formed in the inner ring surface of the dust removing cylinder, the dust removing holes are sequentially divided into three parts from inside to outside, the first part of the holes are in a large conical hole shape, the second part of the holes are in a middle conical hole shape, and the third part of the holes are in a straight hole shape;

an L-shaped backwash tube transversely placed is arranged above the top wall of the dust removal cylinder, an air pump is installed on the left side of the top wall of the hollow cylinder, the exhaust end of the air pump is communicated with the L-shaped backwash tube, and a plurality of gas spray heads corresponding to the dust removal holes are arranged on the bottom surface of the L-shaped backwash tube.

Preferably, a plurality of circularly arranged communicating air holes are formed in the first clamping rings adjacent to the dust hopper, a positioning cylinder concentrically fixedly connected is sleeved in the middle of the fixed shaft, the positioning cylinder is positioned in the dust hopper, and a plurality of circularly arranged swing blades are fixedly arranged on the outer ring surface of the positioning cylinder.

Preferably, the left side of the outer ring surface of the purifying cylinder is provided with a plurality of evenly arranged air inlet holes, the right side of the outer ring surface of the purifying cylinder is provided with a plurality of evenly arranged air outlet holes, and a plurality of air outlet holes are all positioned in the annular channel steel;

The top wall left segment part top of purifying cylinder is equipped with L type atomizing pipe, the bottom surface of L type atomizing pipe is equipped with a plurality of atomizer that correspond with the inlet port, the roof mid-mounting of hollow cylinder has the water pump, the drainage end and the L type atomizing pipe intercommunication of water pump.

The invention also provides a use method of the multifunctional waste gas purification environment-friendly equipment, which comprises the following steps:

step one, starting a servo motor, wherein a motor shaft of the servo motor drives a fixed shaft, a sleeve, a limiting ring, a driving gear, a positioning cylinder, a swinging blade and a notch gear to synchronously rotate, and the driving gear is meshed with the first gear ring and the dust removing cylinder to reversely rotate;

step two, the limiting ring and the pair of pulleys form a limiting effect, the elliptical sliding block and the arc-shaped baffle plate are driven to slide reciprocally along the elliptical sliding hole, and then the arc-shaped hairbrush plate is driven to slide reciprocally along the inner bottom wall of the dust removal cylinder through the connecting plate;

Step three, a gap part of the gap gear and the second gear ring form a limiting effect, and the gap gear is meshed to drive the second gear ring, the step ring, the polygonal clamping plate and the purifying cylinder to intermittently and reversely rotate along the positioning ring, the second clamping ring and the annular channel steel;

starting a water pump, spraying an atomized liquid along an L-shaped atomization pipe and an atomization spraying hole on the purifying cylinder under the action of the water pump, and enabling atomized water bead particles to be uniformly distributed in a plurality of air inlet holes due to the fact that the purifying cylinder is in intermittent reverse rotation;

step five, waste gas enters the dust removing cylinder through the left port of the hollow cylinder, dust removing operation is carried out on the waste gas through the dust removing hole of the dust removing cylinder, a large amount of dust and impurities are adsorbed on the inner wall of the dust removing cylinder, and scraping wall cleaning is carried out through the arc-shaped hairbrush plate so that the dust and the impurities enter the dust collecting hopper;

Step six, the dust-removed waste gas enters the middle part in the hollow cylinder through the communicated air holes, atomization operation is carried out, the atomized waste gas enters the purifying cylinder through the air inlet holes, then the purified waste gas is purified and filtered through the activated carbon adsorption filler, the microorganism adsorption filler and the demisting purification filler in sequence, and the purified waste gas enters the annular channel steel through the exhaust holes and is discharged through the exhaust pipe;

step seven, when a plurality of dust removing holes are blocked, an air pump is started, high-pressure air backflushes the dust removing holes on the dust removing cylinder along the L-shaped backflushing pipe and the air nozzle under the action of the air pump, and the dust removing cylinder rotates reversely, so that the high-pressure air backflushes the dust removing holes uniformly;

And step eight, opening the fixed cover disc, taking out the purifying cylinder, opening the purifying cover disc, and periodically replacing the activated carbon adsorption filler, the microorganism adsorption filler and the demisting purifying filler in the purifying cylinder.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the invention, when the dust removing cylinder reversely rotates, the arc-shaped hairbrush plate is driven to reciprocally clean and scrape the wall along the inner bottom wall of the dust removing cylinder through the cooperation of the reciprocating mechanism, so that dust falls into the dust collecting hopper, and the high-pressure gas is used for carrying out uniform back flushing on a plurality of dust removing holes through the back flushing effect of the air pump, so that the blocking phenomenon of the dust removing holes is avoided, and the waste gas dust removing effect is effectively improved;

2. According to the invention, through the cooperation of the limiting mechanism, the purifying cylinder is in intermittent reverse rotation, and atomized water bead particles are uniformly distributed in a plurality of air inlets under the action of the water pump, so that the purifying cylinder can fully atomize waste gas before purifying operation, the contact time of the waste gas and atomized liquid is prolonged, and the subsequent waste gas purifying effect is further improved;

In summary, the invention solves the problem of poor dust removal and atomization effects of the waste gas, has compact overall structural design, can not only enhance the dust removal effect of the waste gas, but also effectively prolong the contact time of the waste gas and the atomized liquid, thereby improving the practicability of the waste gas purification environmental protection equipment.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a schematic diagram of a front view of the present invention;

FIG. 2 is a schematic view of the bottom view of the present invention;

FIG. 3 is a schematic view of a front view of the present invention;

FIG. 4 is a schematic view of the internal structure of the hollow cylinder of the present invention;

FIG. 5 is an exploded view of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic view of a purification assembly of the present invention;

FIG. 7 is a schematic view of the reciprocating mechanism of the present invention;

FIG. 8 is a schematic view of a limiting mechanism according to the present invention;

FIG. 9 is a left side schematic view of FIG. 8 in accordance with the present invention;

FIG. 10 is a schematic view of a dust removing cylinder according to the present invention;

In the figure, the serial numbers are 1, a hollow cylinder, 11, a dust hopper, 12, a dirt collecting tank, 13, annular channel steel, 14, an exhaust pipe, 15, an air pump, 16, a water pump, 17, a fixed cover plate, 2, a first clamping ring, 21, a dust removing cylinder, 22, a U-shaped cover, 23, an elliptic slide block, 24, a connecting plate, 25, an arc-shaped hairbrush plate, 26, an arc-shaped baffle plate, 3, a second clamping ring, 31, a purifying cylinder, 32, a hollow baffle plate, 33, an activated carbon adsorption filler, 34, a microorganism adsorption filler, 35, a defogging purification filler, 36, a purifying cover plate, 4, a positioning ring, 41, a stepped ring, 42, a magnetic chuck, 43, a polygonal clamping plate, 5, a servo motor, 51, a fixed shaft, 52, a sleeve, 53, a limiting ring, 54, a pulley, 6, a driving gear, 61, a first gear ring, 62, a swinging blade, 63, a notch gear, 64 and a second gear ring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The embodiment I provides multifunctional waste gas purification environment-friendly equipment, which is shown in figures 1-10, and specifically comprises a hollow cylinder 1, wherein the hollow cylinder 1 is a hollow cylinder with a conical opening at the left end part and a circular opening at the right end part, a rectangular through hole is formed in the middle of the bottom surface of the hollow cylinder 1, a vertically fixedly connected dust hopper 11 is inserted into the rectangular through hole, the top of the left side wall of the dust hopper 11 is in a circular opening shape, the bottom of the left side wall of the dust hopper 11 is in a rectangular opening shape, a pair of concentrically fixedly connected first clamping rings 2 are arranged at the left side in the hollow cylinder 1, a rotationally connected dust removing cylinder 21 is clamped between the pair of first clamping rings 2, a right port of the dust removing cylinder 21 is in through connection with the left port of the dust hopper 11, a concentrically fixedly connected second clamping ring 3 is arranged at the right side in the hollow cylinder 1, a slidably connected purifying cylinder 31 is inserted into the second clamping ring 3, and a purifying component is arranged in the purifying cylinder 31;

The right side of the inner bottom wall of the hollow cylinder 1 is sunken with a sewage collecting tank 12, the sewage collecting tank 12 is positioned under the left section part of the purifying cylinder 31, the inner bottom wall of the dedusting cylinder 21 is provided with a transversely placed arc-shaped brush plate 25, the left side bottom wall of the hollow cylinder 1 is fixedly provided with a U-shaped cover 22, a servo motor 5 with the output end facing to the right is arranged in the left port of the U-shaped cover 22, the motor shaft end part of the servo motor 5 is provided with a coaxially connected fixed shaft 51, the right end part of the fixed shaft 51 sequentially rotates to penetrate through a pair of first clamping rings 2 and the dust hopper 11 and extends to the right side of the dust hopper 11, the left end part of the fixed shaft 51 is connected with the arc-shaped brush plate 25 through a reciprocating mechanism, and the right end part of the fixed shaft 51 is connected with the purifying cylinder 31 through a limiting mechanism.

In a specific implementation process, as shown in fig. 3 and 6, the purification assembly comprises an activated carbon adsorption filler 33, a microorganism adsorption filler 34 and a demisting purification filler 35, the purification barrel 31 is a hollow barrel with an open right end, a pair of hollow separation discs 32 which are detachably connected are arranged in the purification barrel 31, a purification cover disc 36 which is detachably connected is arranged in a right end of the purification barrel 31, three circular cavities are sequentially formed in the purification barrel 31, and the activated carbon adsorption filler 33, the microorganism adsorption filler 34 and the demisting purification filler 35 are sequentially arranged in the three circular cavities;

the atomized waste gas is sequentially purified and filtered through the activated carbon adsorption filling 33, the microorganism adsorption filling 34 and the demisting purification filling 35, so that the waste gas purification effect is improved, and the harmful gas in the waste gas is conveniently adsorbed and removed.

In the specific implementation process, as shown in fig. 3 and 5, the right side of the purifying cylinder 31 is sleeved with a ring-shaped channel steel 13 in sliding connection, the right side of the top wall of the hollow cylinder 1 is provided with an exhaust pipe 14 vertically penetrating and fixedly connected, and the bottom end part of the exhaust pipe 14 is in penetrating connection with the top wall of the ring-shaped channel steel 13;

a fixed cover disc 17 which is detachably connected is arranged in the right port of the hollow cylinder 1, a rectangular sliding hole is formed in the bottom of the back surface of the dust hopper 11, a sliding baffle which is in sliding connection is inserted in the rectangular sliding hole, a drain pipe is arranged on the right side wall of the sewage collecting tank 12, and a drain valve is arranged at the outer end part of the drain pipe.

In the specific implementation process, as shown in fig. 5 and 7, a first gear ring 61 concentrically fixedly connected is sleeved on the left side of the outer ring surface of the dust removal cylinder 21, a driving gear 6 concentrically fixedly connected is sleeved on the fixed shaft 51, the driving gear 6 is positioned below the first gear ring 61, and the driving gear 6 is in meshed connection with the first gear ring 61;

when the fixed shaft 51 rotates, the fixed shaft 51 drives the driving gear 6 to synchronously rotate, and the driving gear 6 is meshed with the first gear ring 61 and the dust removal cylinder 21 to reversely rotate;

a plurality of communicated air holes in circular arrangement are formed in the first clamping ring 2 adjacent to the dust hopper 11, a positioning cylinder which is concentrically fixedly connected is sleeved in the middle of the fixed shaft 51, the positioning cylinder is positioned in the dust hopper 11, and a plurality of swinging blades 62 in circular arrangement are fixedly arranged on the outer ring surface of the positioning cylinder;

The fixed shaft 51 synchronously drives the swing blade 62 of the positioning cylinder to rotate, and dust and impurities are driven by the swing blade 62 to fall to the inner bottom of the dust hopper 11.

In the specific implementation process, as shown in fig. 4 and 5, the left side of the outer ring surface of the purifying cylinder 31 is provided with a plurality of evenly arranged air inlet holes, the right side of the outer ring surface of the purifying cylinder 31 is provided with a plurality of evenly arranged air outlet holes, and the plurality of air outlet holes are all positioned in the annular channel steel 13;

An L-shaped atomization tube is arranged above the left section of the top wall of the purification cylinder 31, a plurality of atomization spray heads corresponding to the air inlet holes are arranged on the bottom surface of the L-shaped atomization tube, a water pump 16 is arranged in the middle of the top wall of the hollow cylinder 1, and the water discharge end of the water pump 16 is communicated with the L-shaped atomization tube;

Under the action of the water pump 16, the atomized liquid sprays the air inlets on the purifying cylinder 31 along the L-shaped atomizing pipe and the atomizing spraying, and the purifying cylinder 31 is in intermittent reverse rotation, so that atomized water bead particles are uniformly distributed in a plurality of air inlets.

In the second embodiment, the first embodiment has the problem of dust removal Kong Yifa causing blockage, so the first embodiment further comprises:

in a specific implementation process, as shown in fig. 4 and 10, a plurality of uniformly arranged dust removing holes are formed in the inner ring surface of the dust removing cylinder 21, the dust removing holes are sequentially divided into three parts from inside to outside, the first part of the holes are in a large conical hole shape, the second part of the holes are in a middle conical hole shape, and the third part of the holes are in a straight hole shape;

An L-shaped backwash tube transversely arranged is arranged above the top wall of the dust removal cylinder 21, an air pump 15 is arranged on the left side of the top wall of the hollow cylinder 1, the exhaust end of the air pump 15 is communicated with the L-shaped backwash tube, and a plurality of gas spray heads corresponding to dust removal holes are arranged on the bottom surface of the L-shaped backwash tube;

Under the action of the air pump 15, high-pressure air is used for back flushing the dust removing holes on the dust removing cylinder 21 along the L-shaped back flushing pipe and the air nozzle, and the dust removing cylinder 21 is in reverse rotation, so that the high-pressure air is used for evenly back flushing a plurality of dust removing holes, and the blocking phenomenon of the dust removing holes is avoided.

In the third embodiment, the first embodiment has the problem that the dust removing effect of the dust removing cylinder 21 is not good, and therefore, the present embodiment further includes, on the basis of the first embodiment:

In the specific implementation process, as shown in fig. 5 and 7, the reciprocating mechanism comprises an elliptical slide block 23 and a limiting ring 53, the middle part of the U-shaped cover 22 is provided with an elliptical smooth hole, the inside of the elliptical smooth hole is inserted with the elliptical slide block 23 in sliding connection, the top end part of the elliptical slide block 23 is fixedly provided with a connecting plate 24, the right end part of the connecting plate 24 is fixedly connected with the left end part of the arc-shaped hairbrush plate 25, the middle part of the elliptical slide block 23 is fixedly provided with an arc-shaped baffle 26, and the arc-shaped baffle 26 is in sliding connection with the top wall of the U-shaped cover 22

A pair of pulleys 54 which are rotationally connected are arranged at two ends of the bottom of the elliptical sliding block 23, a sleeve 52 which is concentrically fixedly connected is sleeved at the left end part of the fixed shaft 51, a limiting ring 53 which is concentrically fixedly connected and obliquely distributed is sleeved at the middle part of the sleeve 52, and the top of the limiting ring 53 is clamped between the pair of pulleys 54;

When the fixed shaft 51 rotates, the fixed shaft 51 drives the sleeve 52 and the limiting ring 53 to synchronously rotate, the limiting ring 53 and the pair of pulleys 54 form a limiting effect, the elliptical sliding block 23 and the arc-shaped partition plate 26 are driven to reciprocally slide along the elliptical sliding hole, the arc-shaped brush plate 25 is driven to reciprocally slide along the inner bottom wall of the dust removing cylinder 21 by the connecting plate 24, and dust and impurities adsorbed on the inner wall of the dust removing cylinder 21 can be cleaned by the arc-shaped brush plate 25, so that the dust and impurities fall into the dust collecting hopper 11.

In the fourth embodiment, the first embodiment has a problem that the purifying effect of the purifying cartridge 31 is not good, and therefore, the present embodiment further includes, on the basis of the first embodiment:

in the specific implementation process, as shown in fig. 8 and 9, the limiting mechanism comprises a second gear ring 64 and a notch gear 63, wherein the top of the right side wall of the dust hopper 11 is fixedly provided with a positioning ring 4, the positioning ring 4 and the hollow cylinder 1 are concentrically distributed, the positioning ring 4 is internally provided with a step ring 41 which is rotationally connected, the middle part of the right side surface of the step ring 41 is provided with a polygonal groove, the middle part of the inner side wall of the polygonal groove is fixedly provided with a magnetic chuck 42, the middle part of the left side wall of the purifying cylinder 31 is fixedly provided with a polygonal chuck 43, the middle part of the left side wall of the polygonal chuck 43 is provided with a circular groove, the polygonal chuck 43 is clamped in the polygonal groove, and the magnetic chuck 42 is clamped in the circular groove;

The right side of the outer ring surface of the stepped ring 41 is sleeved with a second gear ring 64 which is concentrically and fixedly connected, the right end part of the fixed shaft 51 is sleeved with a notch gear 63 which is concentrically and fixedly connected, the notch part of the notch gear 63 is circularly arranged, the notch gear 63 is meshed and connected with the second gear ring 64, when the fixed shaft 51 rotates, the fixed shaft 51 drives the notch gear 63 to synchronously rotate, the notch part of the notch gear 63 and the second gear ring 64 form a limiting function, and the notch gear 63 is meshed and drives the second gear ring 64, the stepped ring 41, the polygonal clamping plate 43 and the purifying cylinder 31 to intermittently and reversely rotate along the positioning ring 4, the second clamping ring 3 and the annular channel steel 13, so that atomized water bead particles are uniformly distributed in the air inlet.

The fifth embodiment of the invention is specifically as follows:

step one, starting a servo motor 5, wherein a motor shaft of the servo motor 5 drives a fixed shaft 51, a sleeve 52, a limiting ring 53, a driving gear 6, a positioning cylinder, a swinging blade 62 and a notch gear 63 to synchronously rotate, and the driving gear 6 is meshed to drive a first gear ring 61 and a dust removal cylinder 21 to reversely rotate;

step two, the limiting rings 53 and the pair of pulleys 54 form a limiting function, so that the elliptical sliding blocks 23 and the arc-shaped partition plates 26 are driven to slide reciprocally along the elliptical sliding holes, and then the arc-shaped brush plates 25 are driven to slide reciprocally along the inner bottom wall of the dust removal cylinder 21 through the connecting plates 24;

Step three, the notch part of the notch gear 63 and the second gear ring 64 form a limiting function, and the notch gear 63 is meshed to drive the second gear ring 64, the stepped ring 41, the polygonal clamping plate 43 and the purifying cylinder 31 to intermittently and reversely rotate along the positioning ring 4, the second clamping ring 3 and the annular channel steel 13;

Step four, starting the water pump 16, and spraying the atomized liquid along the L-shaped atomization pipe and the atomization spraying to the air inlet holes on the purifying cylinder 31 under the action of the water pump 16, wherein the purifying cylinder 31 is in intermittent reverse rotation, so that atomized water bead particles are uniformly distributed in a plurality of air inlet holes;

Step five, waste gas enters the dust removing cylinder 21 through the left port of the hollow cylinder 1, dust removing operation is carried out on the waste gas through the dust removing holes of the dust removing cylinder 21, a large amount of dust and impurities are adsorbed on the inner wall of the dust removing cylinder 21, and scraping wall cleaning is carried out through the arc-shaped hairbrush plate 25 so that the dust and the impurities enter the dust collecting hopper 11;

Step six, the dust-removed waste gas enters the middle part in the hollow cylinder 1 through a communicating air hole, atomization operation is carried out, the atomized waste gas enters the purifying cylinder 31 through an air inlet hole, then the atomized waste gas is purified and filtered through an activated carbon adsorption filler 33, a microorganism adsorption filler 34 and a demisting purification filler 35 in sequence, and the purified waste gas enters the annular channel steel 13 through an air outlet hole and is discharged through the exhaust pipe 14;

step seven, when a plurality of dust removing holes are blocked, the air pump 15 is started, high-pressure air backflushes the dust removing holes on the dust removing cylinder 21 along the L-shaped backflushing pipe and the air nozzle under the action of the air pump 15, and the dust removing cylinder 21 rotates reversely, so that the high-pressure air backflushes the dust removing holes uniformly;

Step eight, opening the fixed cover plate 17, taking out the purifying cylinder 31, opening the purifying cover plate 36, and periodically replacing the activated carbon adsorption packing 33, the microorganism adsorption packing 34 and the demisting purifying packing 35 in the purifying cylinder 31.

The invention solves the problems of poor dust removal and atomization effects of the waste gas, has compact overall structural design, can not only enhance the dust removal effect of the waste gas, but also effectively prolong the contact time of the waste gas and the atomized liquid, thereby improving the practicability of the waste gas purifying and environment-friendly equipment.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. A multifunctional exhaust gas purification and environmental protection device, comprising a hollow cylinder, characterized in that: the hollow cylinder is a hollow cylinder with a conical opening at the left end and a circular opening at the right end, a rectangular through-hole is provided in the middle of the bottom surface of the hollow cylinder, a vertically fixed dust hopper is inserted into the inside of the rectangular through-hole, the top of the left side wall of the dust hopper is circular and open, and the bottom is rectangular and open, a pair of concentrically fixed first clamping rings are provided on the left side of the hollow cylinder, a rotatably connected dust collection cylinder is engaged between the pair of first clamping rings, the right port of the dust collection cylinder is through-connected with the left port of the dust collection hopper, a concentrically fixed second clamping ring is provided on the right side of the hollow cylinder, a sliding connection is inserted in the second clamping ring A purification cylinder is connected to the dust collecting cylinder, and a purification component is provided in the purification cylinder; a dirt collecting groove is recessed on the right side of the bottom wall of the hollow cylinder, and the dirt collecting groove is located directly below the left section of the purification cylinder; a horizontally placed arc-shaped brush plate is provided on the bottom wall of the dust collecting cylinder, and a U-shaped cover is fixed on the left bottom wall of the hollow cylinder, and a servo motor with an output end facing right is installed in the left port of the U-shaped cover, and a coaxially connected fixed shaft is provided at the end of the motor shaft of the servo motor, and the right end of the fixed shaft rotates in sequence to pass through a pair of first clamping rings and the dust collecting hopper and extends to the right side of the dust collecting hopper, the left end of the fixed shaft is connected to the arc-shaped brush plate through a reciprocating mechanism, and the right end of the fixed shaft is connected to the purification cylinder through a limiting mechanism;

The purification component includes activated carbon adsorption filler, microbial adsorption filler, and demisting purification filler. The purification cylinder is a hollow cylinder with an open right end. A pair of detachable hollow partition plates are provided in the purification cylinder, and a detachable purification cover plate is provided in the right port of the purification cylinder. Three circular cavities are formed in sequence in the purification cylinder, and the insides of the three circular cavities are provided with activated carbon adsorption filler, microbial adsorption filler, and demisting purification filler in sequence; a number of evenly arranged air inlet holes are opened on the left side of the outer ring surface of the purification cylinder, and a number of evenly arranged exhaust holes are opened on the right side of the outer ring surface of the purification cylinder, and the exhaust holes are all located in the annular channel steel; an L-shaped atomizing pipe is provided above the left section of the top wall of the purification cylinder, and a number of atomizing nozzles corresponding to the air inlet holes are provided on the bottom surface of the L-shaped atomizing pipe. A water pump is installed in the middle of the top wall of the hollow cylinder. The drainage end of the water pump is connected to the L-shaped atomizing pipe; the limiting mechanism includes a second gear ring and a notched gear. A positioning ring is fixedly provided on the top of the right side wall of the dust collecting hopper, and the positioning ring is concentrically distributed with the hollow cylinder. A stepped ring with a rotatable connection is inserted in the positioning ring. A polygonal groove is opened in the middle of the right side surface of the step ring, and a magnetic suction cup is fixed in the middle of the inner wall of the polygonal groove. A polygonal card is fixed in the middle of the left side wall of the purification cylinder, and a circular groove is opened in the middle of the left side wall of the polygonal card plate. The polygonal card is clamped in the polygonal groove, and the magnetic suction cup is clamped in the circular groove. The right side of the outer ring surface of the step ring is sleeved with a concentrically fixed second gear ring, and the right end portion of the fixed shaft is sleeved with a concentrically fixed notched gear. The notched part of the notched gear is arranged in a circle, and the notched gear is meshed with the second gear ring.

2. A multifunctional exhaust gas purification and environmental protection equipment according to claim 1, characterized in that: a slidingly connected annular channel steel is sleeved on the right side of the purification cylinder, a vertically penetrating fixed exhaust pipe is provided on the right side of the top wall of the hollow cylinder, the bottom end of the exhaust pipe is through-connected to the top wall of the annular channel steel, and a detachable fixed cover plate is provided in the right port of the hollow cylinder; a rectangular sliding hole is provided at the bottom back of the dust collecting hopper, a slidingly connected push-pull baffle is inserted into the inside of the rectangular sliding hole, a sewage pipe is provided on the right side wall of the sewage collecting tank, and a sewage valve is installed at the outer end of the sewage pipe.

3. A multifunctional exhaust gas purification and environmental protection equipment according to claim 2, characterized in that: a first gear ring is concentrically fixedly sleeved on the left side of the outer ring surface of the dust removal cylinder, and a driving gear is concentrically fixedly sleeved on the fixed shaft, the driving gear is located below the first gear ring, and the driving gear is meshed with the first gear ring.

4. A multifunctional exhaust gas purification and environmental protection equipment according to claim 3, characterized in that: a plurality of evenly arranged dust removal holes are opened on the inner ring surface of the dust removal cylinder, and the dust removal holes are divided into three parts from the inside to the outside, the aperture of the first part is a large conical hole, the aperture of the second part is a medium conical hole, and the aperture of the third part is a straight hole; a horizontally placed L-shaped backwash pipe is provided above the top wall of the dust removal cylinder, an air pump is installed on the left side of the top wall of the hollow cylinder, the exhaust end of the air pump is connected to the L-shaped backwash pipe, and the bottom surface of the L-shaped backwash pipe is provided with a plurality of gas nozzles corresponding to the dust removal holes.

5. A multifunctional exhaust gas purification and environmental protection device according to claim 4, characterized in that: a plurality of circularly arranged communicating air holes are opened on the first clamping ring adjacent to the dust collecting hopper, a concentrically fixed positioning cylinder is sleeved on the middle part of the fixed shaft, the positioning cylinder is located in the dust collecting hopper, and a plurality of circularly arranged swing blades are fixed on the outer ring surface of the positioning cylinder.

6. A method for using a multifunctional waste gas purification and environmental protection device according to claim 5, characterized in that it comprises the following steps:

Step 1: Start the servo motor. The motor shaft of the servo motor drives the fixed shaft, sleeve, limit ring, driving gear, positioning cylinder, swing blade, and notched gear to rotate synchronously. The driving gear engages to drive the first gear ring and the dust removal cylinder to rotate in the opposite direction.

Step 2: The limiting ring and a pair of pulleys form a limiting effect, driving the elliptical slider and the arc-shaped partition to slide back and forth along the elliptical sliding hole, and then driving the arc-shaped brush plate to slide back and forth along the bottom wall of the dust collector through the connecting plate;

Step 3: The notched portion of the notched gear forms a limiting effect with the second gear ring, and the meshing of the notched gear drives the second gear ring, the stepped ring, the polygonal clamping plate, and the purification cylinder to intermittently rotate in the opposite direction along the positioning ring, the second clamping ring, and the annular channel steel;

Step 4: Start the water pump. Under the action of the water pump, the atomized liquid flows along the L-shaped atomizing pipe and sprays the air inlet holes on the purification cylinder. Since the purification cylinder is in intermittent reverse rotation, the atomized water droplets are evenly distributed in several air inlet holes.

Step 5: The exhaust gas enters the dust collection cylinder through the left port of the hollow cylinder, and the exhaust gas is dusted through the dust collection holes of the dust collection cylinder. A large amount of dust and impurities are adsorbed on the inner wall of the dust collection cylinder, and the curved brush plate scrapes the wall to clean the dust and impurities so that the dust and impurities enter the dust collection hopper;

Step 6: The exhaust gas after dust removal enters the middle part of the hollow cylinder through the connecting air hole and undergoes atomization. The atomized exhaust gas enters the purification cylinder through the air inlet hole, and then passes through the activated carbon adsorption filler, microbial adsorption filler, and demisting purification filler for purification and filtration in sequence. The purified exhaust gas enters the annular channel steel through the exhaust hole and is discharged through the exhaust pipe.

Step 7: When several dust removal holes are clogged, start the air pump. Under the action of the air pump, high-pressure gas flows along the L-shaped backwash pipe and the gas nozzle to backwash the dust removal holes on the dust removal cylinder. Since the dust removal cylinder is rotating in the reverse direction, the high-pressure gas backwashes the several dust removal holes evenly.

Step 8: Open the fixed cover and take out the purification cartridge, then open the purification cover and regularly replace the activated carbon adsorption filler, microbial adsorption filler, and demisting purification filler in the purification cartridge.